Question

challenge 3 - gravity lab escape analysis & conclusion: what force acted on the objects in the air but was not present in the vacuum? what would change if the hammer and feather were dropped on a more massive planet like jupiter? students, write your response!

Explanation:

First Question (Force in air vs vacuum)

In air, objects experience air resistance (a type of fluid friction) due to interaction with air molecules. A vacuum has no air, so air resistance is absent. Gravity acts in both, but air resistance is unique to air - filled environments.

Jupiter has more mass than Earth, so its gravitational acceleration \( g \) is greater (from Newton's law of gravitation \( F = G\frac{Mm}{r^{2}}\), and \( g=\frac{F}{m}=G\frac{M}{r^{2}} \), where \( M \) is planet mass). A greater \( g \) means the hammer and feather would accelerate faster downward, so the time to fall the same distance would decrease, and the impact speed would be higher.

Answer:

The force that acted on the objects in the air but was not present in the vacuum is air resistance (or drag force).

Second Question (Dropping on Jupiter)